Spatial dependence of 2MASS luminosity and mass functions in the old open cluster NGC 188
arXiv:astro-ph/0502453 · doi:10.1051/0004-6361:20041113
Abstract
Luminosity and mass functions in the old open cluster NGC 188 are analysed by means of J and H 2MASS photometry. Within the uncertainties, the observed projected radial density profile of NGC 188 departs from the two-parameter King model in two inner regions, which reflects the non-virialized dynamical state and possibly, some degree of non-sphericity in the spatial shape of this old open cluster. Fits with two and three-parameter King models to the radial distribution of stars resulted in a core radius of 1.3 pc and a tidal radius of 21 pc. The present 2MASS analysis resulted in significant slope variations with distance in the mass function $Ï(m)\propto m^{-(1+Ï)}$, being flat in the central parts ($Ï=0.6\pm0.7$) and steep in the cluster outskirts ($Ï=7.2\pm0.6$). The overall mass function has a slope $Ï=1.9\pm0.7$, slightly steeper than a standard Salpeter mass function. Solar metallicity Padova isochrone fits to the near-infrared colour-magnitude diagram of NGC 188 resulted in an age of $7.0\pm1.0$ Gyr. The best fit, obtained with the 7.1 Gyr isochrone, produced a distance modulus $\mM=11.1\pm0.1$, $\ebv=0.0$, and a distance to the Sun $\ds=1.66\pm0.08$ kpc. The observed stellar mass (in the range $0.98 \ms - 1.08 \ms$) in NGC 188 is $\mobs=380\pm12 \ms$. A simple extrapolation of the observed overall mass function to stars with $0.08 \ms$ resulted in a total present mass of $\mtot\sim(1.8\pm0.7)\times10^4 \ms$. On the other hand, for a more realistic initial mass function which flattens in the low-mass range, the total mass in NGC 188 drops to $\mtot\sim(3.8\pm1.6)\times10^3 \ms$.
13pages and 12 figures. Astronomy and Astrophysics, accepted